TY - JOUR
T1 - 对置活塞发动机侧置燃烧室性能仿真研究
AU - Kang, Yuning
AU - Li, Xiangrong
AU - Yi, Guangming
AU - Yang, Wei
AU - Liu, Fushui
N1 - Publisher Copyright:
© 2021, Editorial Office of Chinese I.C.E. Engineering. All right reserved.
PY - 2021/2/15
Y1 - 2021/2/15
N2 - In order to solve several problems, such as spray wall wetting, low squeeze flow intensity and local over-rich mixture in the central shallow basin type combustion chamber of an opposed-piston engine, a solution using a double-sided combustion chamber was proposed, and accordingly the combustion performance of double-sided ω type combustion chamber and double-sided lateral swirl combustion chamber was studied. In order to prevent the change of port phase from reducing indicated power when using double-sided combustion chamber, an engine performance simulation model established by GT-Power software was used to solve the performance degradation due to the difference in scavenging process by changing the port parameters. Then, AVL FIRE software was used to perform three-dimensional simulation analysis on the combustion performance of these different combustion chambers. The simulation results after optimizing the spray angle show that the fuel spray in the double-sided lateral swirl combustion chamber forms wall-flow-guided and interferential interaction, and diffuses to the area where the air is not fully utilized, thus preventing the fuel from accumulating on the wall, and making the mixing of fuel and air more uniform. Therefore, compared with central shallow basin type combustion chamber and double-sided ω type combustion chamber, the double-sided scroll combustion chamber has a faster combustion rate and a higher indicated power. This indicates that the use of double-sided scroll combustion chamber in opposed piston engines is of great significance for improving engine performance.
AB - In order to solve several problems, such as spray wall wetting, low squeeze flow intensity and local over-rich mixture in the central shallow basin type combustion chamber of an opposed-piston engine, a solution using a double-sided combustion chamber was proposed, and accordingly the combustion performance of double-sided ω type combustion chamber and double-sided lateral swirl combustion chamber was studied. In order to prevent the change of port phase from reducing indicated power when using double-sided combustion chamber, an engine performance simulation model established by GT-Power software was used to solve the performance degradation due to the difference in scavenging process by changing the port parameters. Then, AVL FIRE software was used to perform three-dimensional simulation analysis on the combustion performance of these different combustion chambers. The simulation results after optimizing the spray angle show that the fuel spray in the double-sided lateral swirl combustion chamber forms wall-flow-guided and interferential interaction, and diffuses to the area where the air is not fully utilized, thus preventing the fuel from accumulating on the wall, and making the mixing of fuel and air more uniform. Therefore, compared with central shallow basin type combustion chamber and double-sided ω type combustion chamber, the double-sided scroll combustion chamber has a faster combustion rate and a higher indicated power. This indicates that the use of double-sided scroll combustion chamber in opposed piston engines is of great significance for improving engine performance.
KW - Combustion chamber
KW - Combustion performance
KW - Opposed-piston engine
KW - Scavenging process
UR - http://www.scopus.com/inward/record.url?scp=85100485423&partnerID=8YFLogxK
U2 - 10.13949/j.cnki.nrjgc.2021.01.013
DO - 10.13949/j.cnki.nrjgc.2021.01.013
M3 - 文章
AN - SCOPUS:85100485423
SN - 1000-0925
VL - 42
SP - 85
EP - 93
JO - Neiranji Gongcheng/Chinese Internal Combustion Engine Engineering
JF - Neiranji Gongcheng/Chinese Internal Combustion Engine Engineering
IS - 1
ER -